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Computational Design of Azo-anthraquinone Schiff Base Mn Complexes as Mediators for Biofuel Cell Cathode



Author(s)

Kazuto Kajiwara, Shinsuke Yamane, Tomoyuki Haraguchi, Sayantan Pradhan, Chittaranjan Sinha, Rakesh Parida, Santanab Giri, Gourisankar Roymahaptra, Dohyun Moon and Takashiro Akitsu

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DOI:10.17265/1934-7375/2019.01.003

The cathode of biofuel cell reduces molecular oxygen to water using four electrons, an enzyme of multicopper oxidase family, laccase, is contained, though its electron transfer efficiency from the electrode resulted in rate determining process. To improve this electron, transfer via mediators, we have investigated several mediator metal complexes between the electrode and laccase, in particular hydrophobic pocket on the surface. We have discussed DFT computational results and selected experimental data of new Mn(III/II) Schiff base complexes having redox active (anthraquinone) ligands and photochromic (azobenzene) ligands about azobenzene moiety at the sole molecular level. Moreover, we carried out computational docking simulation of laccase and complexes considering trans-cis photoisomerization (electronic states) and Weigert effect (molecular orientation to fit better) of azobenzene moiety. Additionally, actual experimental data also presented to indicate the expected merits for mediators.

Laccase, Schiff base, Mn complex, anthraquinone, azobenzne, computational chemistry